1. Maohua Zhang, Wenyue Zhang, Fating Xie. Experimental study on ASR performance of concrete with nano-particles. Journal of Asian Architecture and Building Engineering. (SCI, 已接收)
2. 张茂花, 谢发庭, 张文悦. 氯离子渗透和碱集料反应作用下纳米混凝土的耐久性. 哈尔滨工业大学学报, 2019, 51(2): 166-171. (EI)
3. 张茂花, 张文悦. 一种混凝土碳酸性侵蚀试验箱,2018207023544,实用新型专利
4. Mao-hua Zhang, Hui Li. Pore structure and chloride permeability of concrete containing nano-particles for pavement. Construction and Building Materials, 2011, 25: 608-616. (SCI, EI)
5. Hui Li, Mao-hua Zhang, Jin-ping Ou. Abrasion resistance of concrete containing nano-particles for pavement. Wear, 2006, 260(11-12):1262-1266. (SCI, EI)
6. Hui Li, Mao-hua Zhang, Jin-ping Ou. Flexural fatigue performance of concrete containing nano-particles for pavement. International journal of fatigue, 2007, (29): 1292-1301. (SCI, EI)
7. Maohua Zhang. Strength properties of pavement concrete containing nano-particles. International Workshop on Architecture, Civil & Environmental Engineering, April 22-24, 2011, Lushan, China. (EI)
8. Maohua Zhang, Songnan Yu. Impact Property of Concrete Containing Nano-particles for Pavement. Advanced Materials Research, 2011, 250-253: 417-420. (EI)
9. Mao-hua Zhang. Pore characteristics of pavement concrete with nano-particles. Applied Mechanics and Materials, 2013, 275-277: 2073-2076. (EI)
10. Maohua Zhang, Hongguang Wang, Jianmin Zhang. Mechanical property of pavement concrete with nano-particles. Advanced Materials Research, 2011, 168-170: 1896-1899. (EI)
11. Mao-hua Zhang, Hong-guang Wang, Chang-qing Sui. Impact resistance of pavement concrete with nano-particles. 11th International Symposium on Structural Engineering, Dec. 18-20, 2010, Guangzhou, China. (ISTP)
12. Maohua Zhang, Hongguang Wang. Strength and drying shrinkage of pavement concrete with nano-particles. Advanced Materials Research, 2013, 662: 182-185. (EI)
13. Mao-hua Zhang, Hui Li. The resistance to chloride penetration of concrete containing nano-particles for pavement. Proceeding of SPIE (Nondestructive Evaluation for Health Monitoring and Diagnostics Symposium—Testing, Reliability, and Application of Micro- and Nano-Material Systems IV), Vol.6175, 61750E, 26 February-2 March 2006, San Diego, USA. (EI)
14. Mao-hua Zhang, Hui Li, Jin-ping Ou. PZT active health monitoring for fatigue accumulative damage of concrete beam containing nano-particles for pavement. Fundamental Problems of Opto- and Microelectronics (APCOM’ 2006), 12-14 September 2006, Harbin, China. (EI)
15. Mao-hua Zhang, Hui Li. Chloride permeability of concrete containing nano-particles for pavement. Proceeding of the second international conference on structural health monitoring and intelligent infrastructure. 16-18 November 2005, Shenzhen, China. (ISTP)
16. Zhai Changhai, Zhang Maohua, Xie Lili. The damping effect on constant-ductility seismic demand spectra of inelastic structures. An International Journal of Key Engineering Material, 2007, 348-349: 649-652. (EI)
17. 张茂花,李雪成.冻融环境下纳米基础混凝土的抗硫酸盐侵蚀性能. 自然灾害学报,2018,02: 94-99.
18. 张茂花,何佳. 纳米CaCO3对混凝土抗硫酸盐腐蚀性能的影响. 施工技术, 2017,06: 65-68.
19. 张茂花,刘亚静,杨静. 掺加纳米材料水泥土无侧限抗压强度试验研究. 施工技术, 2015, 44(15): 78-81.
20. 张茂花,杨静,刘亚静. 纳米材料对低掺量水泥土早期强度的影响. 中外公路, 2015, 35(3): 239-242.
21. 张茂花, 刘亚静. 纳米水泥土研究进展概述. 山西建筑, 2014, 40(36): 112-114.
22. 张茂花, 谢永利, 刘保健. 增减湿时黄土的湿陷系数曲线特征. 岩土力学, 2005, 26(9):1363-1368. (EI)
23. 张茂花, 谢永利, 刘保健. 基于割线模量法的黄土增湿变形本构关系研究. 岩石力学与工程学报, 2006, 25(3):609-617. (EI)
24. 张茂花, 谢永利, 刘保健. 增湿时黄土的抗剪强度特性分析. 岩土力学, 2006, 27(7): 1195-1200. (EI)
25. 张茂花, 谢永利, 刘保健. 湿陷性黄土变形的各向异性及与浸水路径的无关性. 中国公路学报, 2006, 19(4): 11-16. (EI)
26. 张茂花, 谢永利, 刘保健. 增(减)湿时黄土的压缩变形特性分析. 湖南科技大学学报(自然科学版), 2007, 22(3): 50-55.
27. 翟长海, 谢礼立, 张茂花. 恢复力模型对等延性地震抗力谱的影响分析. 哈尔滨工业大学学报, 2006, 38(8): 1228-1230. (EI)
28. 翟长海, 谢礼立, 张茂花. 阻尼对工程结构等延性地震抗力谱的影响分析. 哈尔滨工业大学学报, 2006, 38(10): 1705-1708. (EI)
29. 翟长海, 公茂盛, 张茂花, 谢礼立, 张敏政. 工程结构等延性地震抗力谱研究. 地震工程与工程振动. 2004, 24(1):22-29.
30. 张茂花. 纳米路面混凝土的基本性能. 东北林业大学出版社,2008. (ISBN:7-81076-935-9)
31. 张茂花. 工程地质. 清华大学出版社,2013. (ISBN:978-7-302-30565-1)
